[1] DI X, CHANG M C, NIU Q. Berry phase effects on electronic properties[J]. Review of Modern Physics, 2009, 82(3):1959-2007. [2] CHENG R, OKAMOTO S, XIAO D. Spin Nernst effect of magnons in collinear antiferromagnets[J]. Physical Review Letters, 2016, 117(21):217202. [3] BLOCH F. Zur theorie des ferromagnetismus[J]. Zeitschrift Für Physik, 1930, 61(3-4):206-219. [4] SlATER J C. Cohesion in monovalent metals[J]. Physical Review, 1930, 35(5):509-529. [5] HOLSTEIN T, PRIMAKOFF H. Field dependence of the intrinsic domain magnetization of a ferromagnet[J]. Physical Review, 2001, 58(12):1098-1113. [6] FEYNMAN R P. Forces in molecules[J]. Physical Review, 1939, 56(4):340-343. [7] BOGOLJUBOV N N. On a new method in the theory of superconductivity[J]. IL Nuovo Cimento, 1958, 7(6):794-805. [8] NOLTING W, RAMAKANTH A. Quantum theory of magnetism[M]. Science Press, 2008. [9] NAMBU Y. Quasi-particles and gauge invariance in the theory of superconductivity[M]//Broken Symmetry:Selected Papers of Y Nambu, 1960:91-106. [10] GOLDSTONE J. Field theories with superconductor solutions[J]. IL Nuovo Cimento, 1961, 19(1):154-164. [11] KIMURA K, SERA M, KIMURA T. A2+ cation control of chiral domain formation in A(TiO)Cu4(PO4)4 (A=Ba, Sr)[J]. Inorganic Chemistry, 2016, 55(3). [12] MORIYA T. Anisotropic superexchange interaction and weak ferromagnetism[J]. Physical Review, 1960, 120(1):91. [13] YASUYUKI K, KENTA K, ATSUSHI M, et al. Magnetoelectric behavior from S=1/2 asymmetric square cupolas[J]. Phys Revs Lett, 2017, 118(10):107601. |